Canonical labelling of sparse random graphs
Abstract
We show that if p=O(1/n), then the Erdos-R\'enyi random graph G(n,p) with high probability admits a canonical labeling computable in time O(n n). Combined with the previous results on the canonization of random graphs, this implies that G(n,p) with high probability admits a polynomial-time canonical labeling whatever the edge probability function p. Our algorithm combines the standard color refinement routine with simple post-processing based on the classical linear-time tree canonization. Noteworthy, our analysis of how well color refinement performs in this setting allows us to complete the description of the automorphism group of the 2-core of G(n,p).
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